Image intensifier and LWIR fusion/combination system
First Claim
1. An image fusing system comprising:
- a camera having;
a common aperture arranged to allow target radiation to enter said camera along a common optical axis;
a beam splitter arranged to receive said target radiation passed through said common aperture and to split said target radiation into a first spectral band and a second spectral band which is different from said first spectral band, wherein said target radiation in said first spectral band is directed along a first optical path and said target radiation in said second spectral band is directed along a second optical path;
a first sensor arranged to receive said radiation in said first spectral band and to provide a first optical output representing a first optical image of said radiation filtered into said first spectral band, said first sensor comprising at least one of a charge coupled device or an image intensifier and generates said first optical output;
a first objective lens in said first optical path between said beam splitter and said first sensor, wherein said first objective lens is transmissive to radiation in at least a portion of said first spectral band;
a second sensor arranged to receive said radiation in said second spectral band and to provide a second optical output representing a second optical image of said radiation filtered into a second spectral band, said second sensor comprising an infrared focal plane array (FPA) and a display to convert an electronic output of said FPA to a visible image corresponding to said second optical output;
a second objective lens in said second optical path between said beam splitter and said second sensor, wherein said second objective lens is transmissive to said radiation in at least a portion of said second spectral band;
a beam combining device arranged to optically fuse said first optical output from said first sensor and said second optical output from said second sensor into a third optical output; and
a viewer for viewing said third optical output;
wherein;
said first sensor and said second sensor share said common aperture such that parallax between said first and second sensors is substantially eliminated and said camera and said viewer are aligned along said common optical axis such that parallax between said camera and said viewer is substantially eliminated;
said first spectral band comprises a visible and/or near infrared (VIS/NIR) image of said radiation;
said second spectral band comprises at least one of a short wave infrared (SWIR), medium wave infrared (MWIR) or long wave infrared (LWIR) image of said radiation; and
said beam combining device comprises a narrow band filter to pass substantially all green light from said first sensor at a peak wavelength of near 0.55 micrometers with a bandwidth of near ±
0.01 micrometers, and to reflect substantially all other visible light from said display of said second sensor to fusesaid VIS/NIR and SWIR/MWIR/LWIR images.
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Accused Products
Abstract
An infrared imaging device combines two sensors, each sensor sensitive to a different spectral range of infrared radiation. Both sensors are combined in a single camera sharing one of three common optical apertures, thus parallax is eliminated between the sensors. Further, a display device is aligned along an optical axis in common with the camera eliminating parallax between the display and camera. Images from the first sensor, the second sensor, or both sensors may be viewed optically and/or electronically. The device is handheld, or mountable on a headgear such as a helmet. When mounted on headgear, the display is viewable by directing the operator'"'"'s gaze upward, thus the display does not interfere with an operator'"'"'s straight and downward sight. The image can be sent to a remote display by a wireless transceiver, and waterproof, fireproof, vibration/impact resistance, and hot/cold weather resistance are achieved using a high strength plastic enclosure with foam insert.
88 Citations
10 Claims
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1. An image fusing system comprising:
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a camera having; a common aperture arranged to allow target radiation to enter said camera along a common optical axis; a beam splitter arranged to receive said target radiation passed through said common aperture and to split said target radiation into a first spectral band and a second spectral band which is different from said first spectral band, wherein said target radiation in said first spectral band is directed along a first optical path and said target radiation in said second spectral band is directed along a second optical path; a first sensor arranged to receive said radiation in said first spectral band and to provide a first optical output representing a first optical image of said radiation filtered into said first spectral band, said first sensor comprising at least one of a charge coupled device or an image intensifier and generates said first optical output; a first objective lens in said first optical path between said beam splitter and said first sensor, wherein said first objective lens is transmissive to radiation in at least a portion of said first spectral band; a second sensor arranged to receive said radiation in said second spectral band and to provide a second optical output representing a second optical image of said radiation filtered into a second spectral band, said second sensor comprising an infrared focal plane array (FPA) and a display to convert an electronic output of said FPA to a visible image corresponding to said second optical output; a second objective lens in said second optical path between said beam splitter and said second sensor, wherein said second objective lens is transmissive to said radiation in at least a portion of said second spectral band; a beam combining device arranged to optically fuse said first optical output from said first sensor and said second optical output from said second sensor into a third optical output; and a viewer for viewing said third optical output;
wherein;said first sensor and said second sensor share said common aperture such that parallax between said first and second sensors is substantially eliminated and said camera and said viewer are aligned along said common optical axis such that parallax between said camera and said viewer is substantially eliminated; said first spectral band comprises a visible and/or near infrared (VIS/NIR) image of said radiation; said second spectral band comprises at least one of a short wave infrared (SWIR), medium wave infrared (MWIR) or long wave infrared (LWIR) image of said radiation; and said beam combining device comprises a narrow band filter to pass substantially all green light from said first sensor at a peak wavelength of near 0.55 micrometers with a bandwidth of near ±
0.01 micrometers, and to reflect substantially all other visible light from said display of said second sensor to fusesaid VIS/NIR and SWIR/MWIR/LWIR images. - View Dependent Claims (2, 3, 4)
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5. An image fusing system comprising:
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a camera having; a common aperture arranged to allow target radiation to enter said camera along a common optical axis; a beam splitter arranged to receive said target radiation passed through said common aperture and to split said target radiation into a first spectral band and a second spectral band which is different from said first spectral band; a first sensor arranged to receive said radiation in said first spectral band and provide a first image of said radiation filtered into said first spectral band; a first optical output derived from said first image; an electro-optic camera to convert said first optical output to a first electronic output derived from said first image; a second sensor arranged to receive said radiation in said second spectral band and provide a second image of said radiation filtered into said second spectral band, said second sensor comprising an infrared focal plane array (FPA) that derives a second electronic output from said image and a display to convert said second electronic output to a second optical output derived from said second image; a beam combining device arranged to optically fuse said first optical output and said second optical output into a third optical output; a viewer for viewing at least one of said first optical output, said second optical output or said third optical output; a fusion board having a processor arranged to electronically fuse or combine said first electronic output and said second electronic output into a third electronic output; and a display device arranged to selectively display at least one of said first electronic output, said second electronic output or said third electronic output; wherein; said first sensor and said second sensor share said common aperture such that parallax between said first and second sensors is substantially eliminated and said camera and said viewer are aligned along said common optical axis such that parallax between said camera and said viewer is substantially eliminated; said first spectral band comprises a visible and/or near infrared (VIS/NIR) optical and electronic image of said radiation from said first sensor; said second spectral band comprises a short wave infrared (SWIR), middle wave infrared (MWIR) or a long wave infrared (LWIR) optical and electronic image of said radiation from said second sensor; and said beam combining device comprises a narrow band filter to pass substantially all green light from said first sensor at a peak wavelength of near 0.55 micrometers with a bandwidth of near ±
0.01 micrometers, and to reflect substantially all other visible light from said display of said second sensor to optically fuse said VIS/NIR and SWIR/MWIR/LWIR images. - View Dependent Claims (6, 7, 8, 9, 10)
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Specification